FCS: Mortality model fitting
In demofit: Parametric Mortality Curve Fitting and Mortality Forecasting Tools
FCS R Documentation
Mortality model fitting
Description
Fits and forecasts mortality rates using different stochastic mortality models with different estimation methods.
Usage
FCS(
x,
M,
model = c("LC", "RH", "APC", "CBD", "CBDC", "CBDQC", "STAR"),
curve = c("gompertz", "makeham", "oppermann", "thiele", "wittsteinbumsted", "perks",
"weibull", "vandermaen", "beard", "heligmanpollard", "rogersplanck", "siler",
"martinelle", "thatcher", "gompertz2", "makeham2", "oppermann2", "thiele2",
"wittsteinbumsted2", "perks2", "weibull2", "vandermaen2", "beard2",
"heligmanpollard2", "rogersplanck2", "siler2", "martinelle2", "thatcher2"),
h = 10,
jumpoff = 1
)
Arguments
x
vector of ages.
M
matrix of mortality rates (rows as years and columns as ages).
model
name of stochastic mortality model (including LC, RH, APC, CBD, CBDC, CBDQC, and STAR).
curve
name of mortality curve for smoothing forecasted mortality rates (including gompertz, makeham, oppermann, thiele, wittsteinbumsted, perks, weibull, vandermaen, beard, heligmanpollard, rogersplanck, siler, martinelle, thatcher, gompertz2, makeham2, oppermann2, thiele2, wittsteinbumsted2, perks2, weibull2, vandermaen2, beard2, heligmanpollard2, rogersplanck2, siler2, martinelle2, thatcher2, where first 14 curves' parameters are unconstrained and last 14 curves' parameters are generally restricted to be positive).
h
forecast horizon (default = 10).
jumpoff
if 1, forecasts are based on estimated parameters only; if 2, forecasts are anchored to observed mortality rates in final year (default = 1).
Details
See LCS(), RHS(), APCS(), CBDS(), CBDCS(), CBDQCS(), and STARS() for more details of different stochastic mortality models.
Value
An object of class based on selected stochastic mortality model with associated S3 methods coef, forecast, plot, and residuals.
Examples
x <- 60:89
a <- c(-4.8499,-4.7676,-4.6719,-4.5722,-4.4847,-4.3841,-4.2813,-4.1863,-4.0861,-3.9962,
-3.8885,-3.7896,-3.6853,-3.5737,-3.4728,-3.3718,-3.2586,-3.1474,-3.0371,-2.9206,
-2.7998,-2.6845,-2.5653,-2.4581,-2.3367,-2.2159,-2.1017,-1.9941,-1.8821, -1.7697)
b <- c(0.0283,0.0321,0.0335,0.0336,0.0341,0.0358,0.0368,0.0403,0.0392,0.0395,
0.0396,0.0399,0.0397,0.0386,0.039,0.0375,0.0367,0.0368,0.035,0.0354,
0.0336,0.0323,0.0313,0.0295,0.0282,0.0265,0.024,0.0226,0.0219,0.0183)
k <- c(12.11,10.69,11.18,9.64,9.35,8.21,6.89,5.74,4.56,3.6,
3.27,2.04,1.11,-0.44,-1.05,-1.03,-1.84,-2.9,-4.03,-4.12,
-5.18,-5.64,-6,-6.51,-6.91,-6.9,-8.32,-8.53,-9.69,-9.31)
set.seed(123)
M <- exp(outer(k,b)+matrix(a,nrow=30,ncol=30,byrow=TRUE)+rnorm(900,0,0.035))
fit <- FCS(x=x,M=M,model="LC",curve="makeham",h=30,jumpoff=2)
coef(fit)
forecast::forecast(fit)
plot(fit)
residuals(fit)
demofit documentation built on April 9, 2026, 5:09 p.m.
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| FCS | R Documentation |
Mortality model fitting
Description
Fits and forecasts mortality rates using different stochastic mortality models with different estimation methods.
Usage
FCS(
x,
M,
model = c("LC", "RH", "APC", "CBD", "CBDC", "CBDQC", "STAR"),
curve = c("gompertz", "makeham", "oppermann", "thiele", "wittsteinbumsted", "perks",
"weibull", "vandermaen", "beard", "heligmanpollard", "rogersplanck", "siler",
"martinelle", "thatcher", "gompertz2", "makeham2", "oppermann2", "thiele2",
"wittsteinbumsted2", "perks2", "weibull2", "vandermaen2", "beard2",
"heligmanpollard2", "rogersplanck2", "siler2", "martinelle2", "thatcher2"),
h = 10,
jumpoff = 1
)
Arguments
x |
vector of ages. |
M |
matrix of mortality rates (rows as years and columns as ages). |
model |
name of stochastic mortality model (including LC, RH, APC, CBD, CBDC, CBDQC, and STAR). |
curve |
name of mortality curve for smoothing forecasted mortality rates (including gompertz, makeham, oppermann, thiele, wittsteinbumsted, perks, weibull, vandermaen, beard, heligmanpollard, rogersplanck, siler, martinelle, thatcher, gompertz2, makeham2, oppermann2, thiele2, wittsteinbumsted2, perks2, weibull2, vandermaen2, beard2, heligmanpollard2, rogersplanck2, siler2, martinelle2, thatcher2, where first 14 curves' parameters are unconstrained and last 14 curves' parameters are generally restricted to be positive). |
h |
forecast horizon (default = 10). |
jumpoff |
if 1, forecasts are based on estimated parameters only; if 2, forecasts are anchored to observed mortality rates in final year (default = 1). |
Details
See LCS(), RHS(), APCS(), CBDS(), CBDCS(), CBDQCS(), and STARS() for more details of different stochastic mortality models.
Value
An object of class based on selected stochastic mortality model with associated S3 methods coef, forecast, plot, and residuals.
Examples
x <- 60:89
a <- c(-4.8499,-4.7676,-4.6719,-4.5722,-4.4847,-4.3841,-4.2813,-4.1863,-4.0861,-3.9962,
-3.8885,-3.7896,-3.6853,-3.5737,-3.4728,-3.3718,-3.2586,-3.1474,-3.0371,-2.9206,
-2.7998,-2.6845,-2.5653,-2.4581,-2.3367,-2.2159,-2.1017,-1.9941,-1.8821, -1.7697)
b <- c(0.0283,0.0321,0.0335,0.0336,0.0341,0.0358,0.0368,0.0403,0.0392,0.0395,
0.0396,0.0399,0.0397,0.0386,0.039,0.0375,0.0367,0.0368,0.035,0.0354,
0.0336,0.0323,0.0313,0.0295,0.0282,0.0265,0.024,0.0226,0.0219,0.0183)
k <- c(12.11,10.69,11.18,9.64,9.35,8.21,6.89,5.74,4.56,3.6,
3.27,2.04,1.11,-0.44,-1.05,-1.03,-1.84,-2.9,-4.03,-4.12,
-5.18,-5.64,-6,-6.51,-6.91,-6.9,-8.32,-8.53,-9.69,-9.31)
set.seed(123)
M <- exp(outer(k,b)+matrix(a,nrow=30,ncol=30,byrow=TRUE)+rnorm(900,0,0.035))
fit <- FCS(x=x,M=M,model="LC",curve="makeham",h=30,jumpoff=2)
coef(fit)
forecast::forecast(fit)
plot(fit)
residuals(fit)
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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